An optical module comprising a heat sink having one or more heat dissipating surfaces, a fan for sending air over the one or more heat dissipating surfaces, and a light source held by the heat sink (8).
The main feature of an optical module according to the invention is that the fan is mounted on the heat sink by clipping.
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12. An optical module comprising:
a heat sink having one or more heat dissipating surfaces;
a fan for sending air over said one or more heat dissipating surfaces; and
a light source held by said heat sink;
wherein said fan is mounted on said heat sink by sliding said fan along said heat sink and then locking by clipping a clipping element, wherein said clipping element deforms from a relaxed position during said sliding the fan along said heat sink and returns to the relaxed position to fasten the fan to the heatsink by engagement of the clipping element with a mating surface.
1. An optical module comprising:
a heat sink having one or more heat dissipating surfaces;
a fan for sending air over said one or more heat dissipating surfaces;
a light source held by said heat sink; and
a heat sink housing adapted to be mounted on and receive said heat sink, said heat sink housing also being configured to receive and house said fan and fasten said fan to said heat sink by a clipping element so that when said fan is energized, air is forced across said one or more heat dissipating surfaces, wherein said clipping element deforms from a relaxed position during an action of the housing receiving the fan and returns to the relaxed position to fasten the fan to the heatsink by engagement of the clipping element with a mating surface.
2. An optical module comprising:
a heat sink having one or more heat dissipating surfaces;
a fan for sending air over said one or more heat dissipating surfaces;
a light source held by said heat sink; and
a heat sink housing adapted to be mounted on and receive said heat sink, said heat sink housing also being configured to receive and house said fan end fasten said fan to said heat sink so that when said fan is energized, air is forced across said one or more heat dissipating surfaces, wherein said heat sink housing comprises a housing having one or more edges and at least two deformable clipping tabs projecting from at least two of said one or more edges, and in that said fan is placed on said heat sink between said at least two deformable clipping tabs.
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This application claims priority to the French application 1550174 filed Jan. 9, 2015, which application is incorporated herein by reference and made a part hereof.
1. Field of the Invention
The invention relates to an optical module for a vehicle headlamp.
2. Description of the Related Art
Generally, such an optical module works with a light source having the drawback of emitting heat. It is therefore equipped with a heat sink to absorb the heat in order to keep the temperature of said module at a relatively low level. In this way, the operation of the optical module is not affected by too high a temperature.
This type of module has already been patented. For example, patent application EP 2 138 759, which is equivalent to U.S. Publication 2009/0316425, now issued as U.S. Pat. No. 8,118,462, relates to an optical module with the particularity of having a light source based on a semiconductor light emitting device. This module comprises a heat sink for blowing cooled air toward the light source.
An optical module according to the invention uses a fan/heat sink assembly which is easy and quick to assemble and disassemble, and which is compact and inexpensive.
The invention relates to an optical module comprising a heat sink having one or more heat dissipating surfaces, a fan for sending air over the one or more heat dissipating surfaces, and a light source held by the heat sink.
The main feature of an optical module according to the invention is that the fan is mounted on the heat sink by clipping. In this way, the fan may be mounted on the heat sink quickly and easily because it does not need any special tools or complicated gestures requiring precision and rigor. In addition, the fan may be removed from the heat sink at any time as quickly and easily as when it was mounted on the heat sink. The fan is oriented relative to the heat sink, so that the air forced by the fan passes between the heat dissipating surfaces of the heat sink. It is advantageously assumed that the heat dissipating surfaces of the heat sink are made of metal. The heat sink can hold the light source, either directly or indirectly by means of a holding part. Each heat dissipating surface may, for example, take the form of a fin or a stud.
Advantageously, the heat sink comprises a housing having one or more edges and at least two deformable clipping tabs projecting from the edge or from at least two of the edges, the fan being placed on the heat sink between the at least two clipping tabs. Thus, the fan is mounted on the heat sink in two stages, the first stage comprising bringing the fan close to the heat sink, causing the clipping tabs to move apart elastically, and then in the second stage the clipping tabs close over the fan once the latter has reached its final mounting position on the heat sink. The tabs naturally close over the fan as they try to return to the relaxed position thereof. It is assumed that all the clipping tabs project from the edges in the same direction. In this embodiment, the fan is mounted on the heat sink from the top.
Preferably, the housing has two clipping tabs projecting from two opposite edges facing one another. This is a simple configuration ensuring a uniform and effective anchoring of the fan on the heat sink.
Preferably, each clipping tab has three segments and two bends, the distance between the tabs being less than the dimensions of the fan so that the fan is mounted on the heat sink by virtue of the tabs moving apart.
Advantageously, the two tabs are inclined with respect to one another so as to facilitate insertion of the fan. Thus, the two tabs are oriented with respect to one another to form a bottleneck which narrows gradually in the direction of the heat sink, thus facilitating the prepositioning of the fan relative to the heat sink, and then guiding it in translational movement to bring it closer to the heat sink.
Advantageously, each edge has at the top at least one fan positioning member projecting from the housing in the same direction as the clipping tabs.
Preferably, each positioning member consists of a flat wall extending each edge of the housing of the heat sink in the same plane.
Advantageously, the heat sink has a plurality of dissipating surfaces formed by parallel fins. Advantageously, the fins are all the same size and are strictly aligned. Each of the fins may advantageously take the form of a metal sheet.
Preferably, the fins are separated from one another. They thus constitute a discontinuous array, two successive fins being separate and independent from one another.
According to another preferred embodiment of an optical module according to the invention, the fins are continuous with one another to form a single piece. Preferably, two successive fins are joined to one another by a 180° bend. Thus arranged, the fins constitute a single piece that can be easily manipulated in order, for example, to insert it in the housing of the heat sink so as to mount it therein.
Preferably, the fins are made of aluminum. As the fins take the form of sheets they may thus be made of 99% pure aluminum, in contrast to existing heat sinks made from a die-cast aluminum alloy, which is less efficient in terms of cooling.
Advantageously, the light source comprises at least one light emitting diode. A light emitting diode is a compact light source which is nonetheless efficient in terms of light intensity.
According to another preferred embodiment of an optical module according to the invention, the fan is mounted on the heat sink by sliding the fan along the heat sink and then locking by clipping. This is an alternative embodiment of a light module according to the invention, wherein the fan is mounted laterally on the heat sink.
Advantageously, sliding is effected through interaction between two grooves and two rails, the two grooves belonging to one of the two elements consisting of the heat sink and the fan, and the two rails belonging to the other element. In other words, if the two rails belong to the fan, then the grooves belong to the heat sink, and vice versa. The grooves are inserted in the rails and slide along the latter until the fan reaches its final mounting position.
The invention also relates to a heat sink for producing an optical module according to the invention.
The invention further relates to a vehicle headlamp comprising at least one optical module according to the invention. Indeed, a light module according to the invention is particularly suitable for use in a vehicle headlamp, in particular in a motor vehicle headlamp.
An optical module according to the invention has the advantage of flexibility of use and maintenance, because the fan can be mounted on the heat sink quickly and easily, and can be removed at any time just as easily. It has the additional advantage of being efficient in terms of temperature control, insofar as the heat sink is made of folded sheet metal, with pure aluminum having good thermal conduction.
These and other objects and advantages of the invention will be apparent from the following description, the accompanying drawings and the appended claims.
Two preferred embodiments of an optical module according to the invention are described in detail below, with reference to
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According to a third preferred embodiment of an optical module 1 according to the invention, the cooling device or fan 7 may be mounted not via the top of the heat sink 8 as is the case in the first two preferred embodiments described above, but laterally by sliding on the heat sink 8. The lateral sliding is effected by interaction between two parallel projecting grooves and two parallel rails, the grooves belonging to either of the two elements consisting of the cooling device or fan 7 and the heat sink 8, and the two rails belonging to the other element. The grooves are inserted in the rails, and the cooling device or fan 7 slides laterally on the heat sink 8, creating an extra thickness corresponding approximately to the total thickness of the fan. At the end of its path, the cooling device or fan 7 is locked to the heat sink 8 by clipping.
While the system, apparatus, process and method herein described constitute preferred embodiments of this invention, it is to be understood that the invention is not limited to this precise system, apparatus, process and method, and that changes may be made therein without departing from the scope of the invention which is defined in the appended claims.
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